Sex-specific differences in telomere length of patients with primary knee osteoarthritis.

Accelerated telomere shortening is associated with age-related diseases, including osteoarthritis (OA). We aimed to determine the relative telomere length (TL) in leukocytes and cartilage of patients with primary knee OA and to investigate factors that may affect TL in OA. Relative TL measurements were performed using qPCR in leukocytes of 612 individuals (310 patients with primary knee OA undergoing total knee arthroplasty (TKA) and 302 unaffected controls). We also analysed cartilage in 57 of the 310 OA patients, measuring relative TL in severely affected and less affected (control) cartilage collected from the same knee. Cartilage TLs were compared to leukocyte TLs in all 57 patients. A significant sex-by-disease-status interaction was found in regard to relative TL. Controlling for age, the average difference of leukocyte TL between female OA patients versus female controls was 0.217 units greater than that between male OA patients versus male controls (95% CI; [0.014, 0.421]). Relative TL comparison of severely and less affected cartilage samples from the same joint showed attrition of telomeres corresponding to disease severity (0.345 mean TL difference with 95% CI of [0.151, 0.539]) in the joint. We also noted that both severely and less affected cartilage had shorter telomeres than leukocytes collected from the same patient. Severe and moderate pain in OA patients was associated with shorter TL in leukocytes, but there was no association with depression or smoking in leukocytes and cartilage. Our study indicates that sex is an important factor in OA contributing to leukocyte and cartilage TL and that pain in OA shows an inverse association only with leukocyte TL.

Unique Transcriptome Changes in Peripheral B Cells Revealed by Comparing Age Groups From Naive or Vaccinated Mice, Including snoRNA and Cdkn2a.

Aging is associated with a decline in immune function that is not fully understood including vaccine failure. Here we report transcriptomic analysis on B cells from naive or influenza-vaccinated mice of 3 ages: young (15-23 weeks), middle-aged (63-81 weeks), and old mice (103-119 weeks). Our goal was expression profiling of B cells by age and history of vaccination to identify novel changes at the transcriptome level. We observed waning vaccine responses with age. In B cell transcripts, age and vaccination history were both important with notable differences observed in conducted analyses (eg, principal component, gene set enrichment, differentially expressed [DE] genes, and canonical pathways). Only 39 genes were significantly DE with age irrespective of vaccine history. This included age-related changes to box C/D small nucleolar (sno) RNAs, Snord123 and Snord1a. Box C/D snoRNAs regulate rRNAs through methylation and are linked to neurodegenerative, inflammatory, and cancer diseases but not specifically B cells or age. Canonical pathway changes implicated with age irrespective of vaccination history included EIF2, mTOR signaling, p53, Paxillin, and Tec kinase signaling pathways as well as cell cycle checkpoint. Importantly, we identified DE genes and pathways that were progressively altered starting in middle-age (eg, signaling by Rho family GTPases) or only altered in middle-age (eg, sphingosine-1-phosphate signaling), despite minimal differences in the ability of these mice to respond to vaccination compared to younger mice. Our results indicate the importance of vaccination or immune stimulation and analyses of multiple age ranges for aging B cell studies and validate an experimental model for future studies.

Exome sequencing reveals a novel COL2A1 mutation implicated in multiple epiphyseal dysplasia.

Mutations in the COMP, COL9A1, COL9A2, COL9A3, MATN3, and SLC26A2 genes cause approximately 70% of multiple epiphyseal dysplasia (MED) cases. The genetic changes involved in the etiology of the remaining cases are still unknown, suggesting that other genes contribute to MED development. Our goal was to identify a mutation causing an autosomal dominant form of MED in a large multigenerational family. Initially, we excluded all genes known to be associated with autosomal dominant MED by using microsatellite and SNP markers. Follow-up with whole-exome sequencing analysis revealed a mutation c.2032G>A (p.Gly678Arg) in the COL2A1 gene (NCBI Reference Sequence: NM_001844.4), which co-segregated with the disease phenotype in this family, manifested by severe hip dysplasia and osteoarthritis. One of the affected family members had a double-layered patella, which is frequently seen in patients with autosomal recessive MED caused by DTDST mutations and sporadically in the dominant form of MED caused by COL9A2 defect.

Ccdc3: A New P63 Target Involved in Regulation Of Liver Lipid Metabolism.

TAp63, a member of the p53 family, has been shown to regulate energy metabolism. Here, we report coiled coil domain-containing 3 (CCDC3) as a new TAp63 target. TAp63, but not ΔNp63, p53 or p73, upregulates CCDC3 expression by directly binding to its enhancer region. The CCDC3 expression is markedly reduced in TAp63-null mouse embryonic fibroblasts and brown adipose tissues and by tumor necrosis factor alpha that reduces p63 transcriptional activity, but induced by metformin, an anti-diabetic drug that activates p63. Also, the expression of CCDC3 is positively correlated with TAp63 levels, but conversely with ΔNp63 levels, during adipocyte differentiation. Interestingly, CCDC3, as a secreted protein, targets liver cancer cells and increases long chain polyunsaturated fatty acids, but decreases ceramide in the cells. CCDC3 alleviates glucose intolerance, insulin resistance and steatosis formation in transgenic CCDC3 mice on high-fat diet (HFD) by reducing the expression of hepatic PPARγ and its target gene CIDEA as well as other genes involved in de novo lipogenesis. Similar results are reproduced by hepatic expression of ectopic CCDC3 in mice on HFD. Altogether, these results demonstrate that CCDC3 modulates liver lipid metabolism by inhibiting liver de novo lipogenesis as a downstream player of the p63 network.

SMD Kozlowski type caused by p.Arg594His substitution in TRPV4 reveals abnormal ossification and notochordal remnants in discs and vertebrae.

Spondylometaphyseal dysplasia Kozlowski type (SMDK) is a monogenic disorder within the TRPV4 dysplasia spectrum and has characteristic spinal and metaphyseal changes. We report skeletal MR imaging in a two-year-old patient who manifested typical clinical and radiographic features of SMDK. The diagnosis was confirmed by molecular analysis which revealed a mutation NM_021625.4:c.1781G > A - p.(Arg594His) in exon 11 of the TRPV4 gene. We have documented abnormalities in endochondral formation of the long and short tubular bones as well as round bones of the wrists and feet. The vertebral bodies had increased thickness of hyaline cartilage which enveloped ossification centers. The vertebrae and discs also had abnormalities in size, shape and structure. These anomalies were most likely the consequence of notochordal remnants presence within the intervertebral discs and in the vertebral bodies. The advantages of MR imaging in bone dysplasias caused by TRPV4 mutations are emphasized in this article.

Aging is associated with impaired angiogenesis, but normal microvascular network structure, in the rat mesentery.

A big problem associated with aging is thought to be impaired microvascular growth or angiogenesis. However, to link the evidence for impaired angiogenesis to microvascular dysfunction in aged tissues, we must compare adult vs. aged microvascular networks in unstimulated scenarios. The objective of this study was to test the hypothesis that aged microvascular networks are characterized by both fewer vessels and the impaired ability to undergo angiogenesis. Mesentery tissues from adult (9-mo) and aged (24-mo) male Fischer 344 rats were harvested and immunolabeled for platelet/endothelial cell adhesion molecule (an endothelial cell marker) according to two scenarios: unstimulated and stimulated. For unstimulated groups, tissues harvested from adult and aged rats were compared. For stimulated groups, tissues were harvested 3 or 10 days after compound 48/80-induced mast cell degranulation stimulation. Unstimulated aged microvascular networks displayed larger mean vascular area per tissue area compared with the unstimulated adult networks. The lack of a decrease in vessel density was supported at the gene expression level with RNA-Seq analysis and with comparison of vessel densities in soleus muscle. Following stimulation, capillary sprouting and vessel density were impaired in aged networks at 3 and 10 days, respectively. Our results suggest that aging associated with impaired angiogenesis mechanisms might not influence normal microvascular function, since unstimulated aged microvascular networks can display a "normal adult-like" vessel density and architecture. NEW & NOTEWORTHY: Using a multidimensional approach, we present evidence supporting that aged microvascular networks display vessel density and patterning similar to adult networks despite also being characterized by a decreased capacity to undergo angiogenesis. Thus, vessel loss is not necessarily a characteristic of aging.

Osteoarthritis and telomere shortening.

Osteoarthritis is the most common disease of joints caused by degradation of articular cartilage and subchondral bone. It is classified as primary form with unknown cause and as secondary form with known etiology. Genetic and epigenetic factors interact with environmental factors and contribute to the development of primary osteoarthritis. Thus far, many polymorphisms associated with osteoarthritis have been identified and recent studies also indicate the involvement of epigenetic factors (e.g., telomere shortening) in the initiation of this disorder. Accelerated shortening of telomeres was detected in osteoarthritis and other age-related diseases. Studies revealed that telomere length is severely reduced in blood leukocytes and chondrocytes of patients with osteoarthritis, and this may contribute to the initiation and development of osteoarthritis, whose major cause is still unknown.

MicroRNAs: Important Epigenetic Regulators in Osteoarthritis.

Multiple mechanisms are implicated in the development of primary osteoarthritis (OA), in which genetic and epigenetic factors appear to interact with environmental factors and age to initiate the disease and stimulate its progression. Changes in expression of microRNAs (miRs) contribute to development of osteoarthritis. Numerous miRs are involved in cartilage development, homeostasis and degradation through targeting genes expressed in this tissue. An important regulator of gene expression in human cartilage is miR-140, which directly targets a gene coding aggrecanase ADAMTS-5, that cleaves aggrecan in cartilage. This miR is considered a biological marker for cartilage and its level significantly decreases in OA cartilage. On the other hand, increased expression of miR-146a in early OA inhibits two other cartilage-degrading enzymes: MMP13 and ADAMTS4, and may provide a useful tool in developing treatments for OA. The COL2A1 gene, encoding collagen type II, which is the most abundant structural protein of the cartilage, is silenced by miR-34a and activated by miR-675. Every year, new targets of cartilage miRs are validated experimentally and this opens new possibilities for new therapies that control joint destruction and stimulate cartilage repair. At the same time development of next-generation sequencing technologies allows to identify new miRs involved in cartilage biology.

Three new patients with FATCO: fibular agenesis with ectrodactyly.

We document three new patients with fibular agenesis, tibial campomelia, and oligosyndactyly (FATCO). Two of these individuals had tetramelic manifestations while the third had bilateral abnormalities of the lower limbs. These patients and others reported as FATCO seem to belong to the phenotype "fibular aplasia with ectrodactyly." Genetic screening for CNVs and mutations in the TP63 and WNT10B genes did not show any genetic abnormalities. ©

Telomere maintenance genes SIRT1 and XRCC6 impact age-related decline in telomere length but only SIRT1 is associated with human longevity.

Leukocyte telomere length is widely considered a biomarker of human age and in many studies indicative of health or disease. We have obtained quantitative estimates of telomere length from blood leukocytes in a population sample, confirming results of previous studies that telomere length significantly decreases with age. Telomere length was also positively associated with several measures of healthy aging, but this relationship was dependent on age. We screened two genes known to be involved in telomere maintenance for association with the age-related decline in telomere length observed in our population to identify candidate longevity-associated genes. A single-nucleotide polymorphism located in the SIRT1 gene and another in the 3' flanking region of XRCC6 had significant effects on telomere length. At each bi-allelic locus, the minor variant was associated with longer telomeres, though the mode of inheritance fitting best differed between the two genes. No statistical interaction was detected for telomere length between the SIRT1 and XRCC6 variants or between these polymorphisms and age. The SIRT1 locus was significantly associated with longevity (P < 0.003). The frequency of the minor allele was higher in long-lived cases than in young controls, which coincides with the protective role of the minor variant for telomere length. In contrast, the XRCC6 variant was not associated with longevity. Furthermore, it did not affect the association of SIRT1 with exceptional survival. The association of the same variant of SIRT1 with longevity was near significant (P < 0.07) in a second population. These results suggest a potential role of SIRT1 in linking telomere length and longevity. Given the differences between this gene and XRCC6, they point to the distinct impact that alternate pathways of telomere maintenance may have on aging and exceptional survival.

New intermediate phenotype between MED and DD caused by compound heterozygous mutations in the DTDST gene.

DTDST mutations cause a spectrum of diastrophic dysplasia disorders characterized by defects of proteoglycans sulfation. Reduction of sulfate/chloride antiporter activity is manifested by lower sulfate uptake and depends on a combination of mutations in DTDST. We analyzed a family with an autosomal recessive form of bone dysplasia. Three affected brothers from this family are compound heterozygotes for C653S/A715V mutations. We classified their phenotype as a new intermediate form between diastrophic dysplasia and multiple epiphyseal dysplasia, manifested by shortening of stature, metatarsus adductus/club foot, mild brachydactyly, proximally placed thumbs and clinodactyly of the fifth fingers. Radiographs document platyspondyly most marked in the lower thoracic and upper lumbar spine, epiphyseal dysplasia affecting predominantly the femoral heads, widening of the metaphyses, narrow growth cartilage and multilayered patellae. Exaggerated lesser trochanters of femur, that is, "monkey wrench" sign, elevated greater trochanters, thin upper pubic rami, grossly normal carpal/tarsal bones and severe, early onset osteoarthritis were other notable features.

Severe neonatal spondylometaphyseal dysplasia in two siblings.

We report on two siblings with a severe neonatal form of spondylometaphyseal dysplasia (SMD). Similar cases have been reported in four publications. Analysis of pedigree data from the original and present families suggests an autosomal recessive mode of inheritance, although parental gonadal mosaicism is also possible. The similarities in the phenotype between our patients and spondyloepimetaphyseal dysplasia congenita (SEMDC) and spondyloepimetaphyseal dysplasia Strudwick (SEMDS) type, indicated that these patients could have a defect in the COL2A1 gene. Molecular analysis of genomic DNA of these patients excluded this gene. Another potential candidate gene PTHR1, was also analyzed in the selected regions and no mutation was found. This gene is probably causative in the Jansen type of SMD, which shares some phenotypic features with the siblings whom we documented. Our results indicate that a new candidate gene for the reported form of SMD should be sought.

Mutations in the known genes are not the major cause of MED; distinctive phenotypic entities among patients with no identified mutations.

Multiple epiphyseal dysplasia (MED) is a clinically and genetically heterogeneous chondrodysplasia. Mutations in six genes (COMP, COL9A1, COL9A2, COL9A3, MATN3 and DTDST) have been reported, but the genotype-phenotype correlations and the proportions of cases due to mutations in these genes are still not well characterized. We performed a clinical, radiological and molecular analysis of known MED genes on 29 consecutive MED patients. The mutation analysis resulted in identification of the DTDST mutation in four patients (14%), the COMP mutation in three (10%) and the MATN3 mutation in three (10%). Thus, a disease-causing mutation was identified in 10 patients altogether (34%). The phenotypic features observed in the patients with mutations were in accordance with previously described phenotypes, but two new distinct phenotypic entities were identified in patients in whom no mutation was found. One of them was characterized by severe, early-onset dysplasia of the proximal femurs with almost complete absence of the secondary ossification centres and abnormal development of the femoral necks. The other phenotype was characterized by 'mini-epiphyses', resulting in severe dysplasia of the proximal femoral heads. The findings suggest that mutations in the known genes are not the major cause of MED and are responsible for less than half of the cases. The existence of additional MED loci is supported by the exclusion of known loci by mutation analysis and finding of specific subgroups among these patients.

Only neutral polymorphisms found in the TIGR/myocilin gene of 45 Polish patients with primary open-angle glaucoma.

The aim of the study was to identify mutations of the TIGR gene in Polish patients with primary open-angle glaucoma (POAG) and to define possible genotype-phenotype correlations. The study included 45 patients with a verified diagnosis of POAG. The PCR amplification of all three exons of the TIGR gene and screening for the sequence changes by CSGE analysis was done for every patient. The probes with identified heteroduplexes were sequenced. Altogether 315 PCR products were obtained. The CSGE analysis detected 60 possible changes of the sequence in 28 patients. 34 heteroduplexes were chosen for sequencing, including 29 unique changes and 5 changes representative of identical heteroduplexes. Direct sequencing enabled detection of only four different changes in the TIGR gene sequence. Three of them: 5'UTR -83G-->A (in 14 patients), +227 exon 1 G-->A, Arg76Lys (in 14 patients) and +311 exon 3 T-->C, Tyr347Tyr (in 4 patients) have already been described in the literature as neutral polymorphisms of the gene. Only one change in the promoter, 5'UTR -126T-->C (in 2 patients), has not been described in the literature to date. However, this change does not alter directly the sequence of amino acids in myocilin, so it is difficult to conclude on its pathogenetic role. Thus our study showed only neutral polymorphisms of the TIGR gene. This suggests that the patients probably have mutations in other genes, so other loci that predispose to POAG must be analyzed.

Clinical and radiographic findings in multiple epiphyseal dysplasia caused by MATN3 mutations: description of 12 patients.

Multiple epiphyseal dysplasia (MED) is characterized by pain and stiffness in joints and delayed and irregular ossification of epiphyses. Causative mutations have been recognized in six different genes. We have identified disease-causing mutations in the gene encoding matrilin-3, an extracellular matrix protein, in seven families with autosomal dominant MED. Review of the clinical and radiographic features in 12 of the affected family members shows a uniform pattern of skeletal anomalies in all patients with considerable degree of variability in severity, both between and within families. The characteristic clinical findings are onset of symptoms in early childhood with predominance of knee and hip related complaints, normal stature, and early-onset osteoarthritis. Radiographs show small and irregular epiphyses and mild metaphyseal irregularities and striations, especially at the knees and hips and mild spinal changes. Despite overlap, both clinically and radiographically, with other forms of MED, the described features may help to differentiate this particular form from other entities within the MED spectrum.

[Study of TIGR gene in patients with primary open angle glaucoma]. / Badania genu TIGR u pacjentów z pierwotna jaskra otwartego kata.

PURPOSE: The aim of the study was to identify the mutations of TIGR gene in Polish patients with primary open angle glaucoma (POAG), and to define the genotype-phenotype correlation, between the type of mutation and the clinical picture of POAG. MATERIAL AND METHODS: The study included 45 patients with verified and proved diagnosis of POAG. DNA was isolated from peripheral blood lymphocytes of patients. The PCR amplification of all three exons of TIGR gene was done for every patient. The screening for the sequence changes in the PCR products of TIGR gene was done using conformation sensitive gel electrophoresis (CSGE). The probes with identified heteroduplexes were sequenced using an automatic DNA sequencer. RESULTS: During amplification of the coding regions of TIGR gene and the promoter sequences and flanking sequences of introns, 315 PCR products were obtained. The CSGE analysis of these PCR products allowed to detect 60 possible changes of sequence in 28 patients. 34 heteroduplexes were chosen for sequencing, including 29 unique changes and 5 changes representative for repeated, identical heteroduplexes. Direct sequencing allowed to detect only four different changes in TIGR gene sequence. Three of them: 5'UTR -83G-->A (present in 14 patients), +227 exon 1 G-->A, Arg76Lys (present in 14 patient) and +311 exon 3 T-->C, Tyr347Tyr (present in 4 patients) were already described in literature as neutral polymorphisms of TIGR gene. Only one change in promoter: 5'UTR 126T-->C (present in 2 patients) was not described in the literature to date. However, because this change doesn't alter directly the sequence of aminoacids in protein product of TIGR gene, it is very difficult to conclude its pathogenetic role. CONCLUSIONS: Our studies have shown no TIGR gene changes that can be recognized as causative mutations in development of POAG. Thus, the definition of any genotype-phenotype correlation was impossible. The study on the role of the change in promoter sequence that was not yet described, will be continued. Exclusion of TIGR gene mutations in Polish patients with POAG means that they probably have mutations in other genes, what paves the way to the studies on other loci that predispose to POAG.